AT515051A1 - Arrangement with a liquid-carrying line - Google Patents

Abstract

The invention relates to an arrangement with a liquid-carrying line (1) of a building and with a housing (2, 20) which has a filler (4) between its housing jacket (3) and the line (1). It is proposed that the closed and inside hollow housing (2, 20) is at least partially filled with a filler (4) containing a silicon-containing granulate (5).

Description

The invention relates to an arrangement with a liquid-conducting conduit of a building and with a housing which has a filler between its housing jacket and the conduit.

Jackets for pipes of a heating and / or cooling circuit of a building are known from the state of the art (DE1930611U), which conversions have a shell-shaped housing, which are lined with a filler of cotton wool or hard foam elements. Of these hard foam elements have proven to be useful for handling, which is incompatible with an environmentally conscious point of view.

In addition, it is known in a floor installation of thermally insulated Fernwärme¬tungen to provide them in a bed of sand. Sand occurs naturally in large quantities, but is comparatively difficult to handle due to its granular form.

The invention is thus based on the object, starting from the geschild¬ edged prior art, to provide an arrangement in which a natural and kostenkosteniger filler easy to handle on a line of a heating or cooling circuit of a building can also be provided later.

The invention solves this problem by the fact that the closed and hollow housing is at least partially filled with a filler containing silicon-containing granules.

If the closed and inside hollow housing is at least partially filled with a filler containing silicon containing granules, even a material in granular form can be easily handled on a line of a heating and / or cooling circuit of a building. In addition, the air inclusions, which inevitably form through cavities between the individual granules, can bring advantages in the direction of improved thermal insulation, so that this filler can also significantly improve, for example, the efficiency of a heating and / or cooling circuit in a building. Moreover, since silicon is the second most abundant element in the earth's crust after oxygen, the filler can be characterized by its near-unlimited natural availability as well as its cost-effectiveness over other known fillers.

In general, it is mentioned that the housing can be particularly suitable for lines of a heating and / or cooling circuit or water pipes of a building.

A further advantageous embodiment of the invention results when the filler consists of silicon granules. Silicon, like water, has a density anomaly and has a lower density at room temperature than at significantly higher temperatures. Therefore, the volume shrinks slightly with increasing temperature from the room temperature. Excessive heating can thus avoid extraordinary stresses on the housing jacket due to a filler expanding under a temperature increase.

If the particles of the granules are spherical in shape, the volume available within the casing shell can be optimally utilized. Furthermore, the spherical shape of the particles can further improve the thermal insulation, since the individual particles can only touch at one point with the next adjacent particles. In addition, the spherical shape of the granulate particles allow a maximum filling of the housing, since with the Kugel¬form a uniform flow of the granules in the entire cavity is possible. Thus, the process of granule introduction into the housing can be simplified, whereby an overall more cost effective arrangement can be provided.

If the fluid-carrying conduit forms part of the housing, material for the housing can be reduced, resulting in a particularly cost-effective arrangement.

This arrangement can be further optimized if the closed housing has a frontally closed double-walled tube whose inner tube forms the liquid-carrying conduit and whose outer tube forms the housing jacket. In this way, line and housing can be mounted in one operation or connected to the heating and / or cooling circuit or the water pipe, which can result in a simplification in handling.

If the housing adjoins the liquid-carrying line, a subsequent provision of the housing with filler material can be carried out in a facilitated manner.

This assembly can be further facilitated if the housing forms at least two shells which, connected to one another, receive the liquid-conducting line between them. The connection of the shells with each other can take place in different ways. Conceivable is both a snap mechanism and a mounting with screws, adhesives or the like.

In general, it is stated that a design of the housing made of two half-shells for the assembly seems particularly advantageous, but Ummante¬lungen of several shell elements are conceivable. In difficult to access, twisted or just laid on the wall lines may under circumstances a housing of more than two shell parts are distinguished.

The use of a closed and internally hollow housing, which is at least partially filled with a filler containing silicon-containing granules, can be used for sheathing or forming a liquid-conducting line of a building, in particular for a heating and / or cooling circuit for a water pipe, wherein the housing may also form part of the pipe.

In particular, if in use, the housing will proceed later in an existing power line, the invention may be particularly distinguished, since the subsequent attachment of the housing can be easily performed.

In the figures, for example, the subject invention is illustrated in more detail with reference to several Aus¬führungsbeispiele. Show it

1 is a front view of an arrangement according to a first embodiment, Fig. FIG. 2 is a sectional view according to FIG. 1, FIG.

Fig. 3 is a front view of the arrangement according to another embodiment and

4 is a sectional view of FIG .. 3

According to FIG. 1, for example, a front view of the arrangement with a liquid-carrying line 1 of a heating and / or cooling circuit 12 and with a housing 2 is shown.

The closed and inside hollow housing 2 forms an inner cavity 13, which is filled with a filler 4 of silicon-containing granules 5. The filler 4 is therefore provided between the outer casing 3 and conduit 1. This highly available silicon raw material allows for an environmentally friendly casing of the conduit 1. In addition, the trapped air between the granules increases the thermal insulation of the conduit, which is also advantageous.

As shown in FIG. 3 or FIG. 4, it is also possible to use silicon granules 6 or silicon granules with spherical particles 7 as filler. By using silicon, further positive effects in the arrangement can be exploited. Thus, due to the density anomaly of the silicon, no additional stress is exerted on the housing 2 by expansion of the filler 4, even with large positive temperature fluctuations. The spherical particles result in even better thermal insulation values since the contact of the particles with each other remains minimal.

In the exemplary embodiment in Fig. 1 and Fig. 2, an arrangement is shown in which the line 1, a part of the inner housing wall 8 of the housing 2 aus¬bildet. The closed housing 2 in Fig. 1 is designed as a double-walled end-side closed tube. The inner tube 9 forms at the same time the line 1 for the heating or cooling circuit 12. The outer tube 14 forms the housing jacket 3 of the housing 2. This arrangement is particularly advantageous because line 1 and housing 2 are mounted together with filler 4.

In another embodiment according to FIG. 3 or FIG. 4, the housing 20 is formed from two closed half-shells 10, 11. This arrangement can be particularly distinguished when the housing 20 is to be retrofitted, for example, to the water conduit 14, the water supply to the building. Of course, the attachment of the shells is also conceivable on lines for the heating or cooling circuit of a building. Both half-shells 10, 11 are firmly connected to one another by a snap connection, not shown.

Also housing of more than two shells are conceivable, but not shown here dar¬.

Claims (9)

1. Arrangement with a liquid-carrying line (1) of a building andwith a housing (2, 20) which has a filler (4) between its housing jacket (3) and the conduit (1), characterized in that closed and inside hollow housing (2, 20) is at least partially filled with a siliziumhalti¬ges granules (5) having filler (4). 2. Arrangement according to claim 1, characterized in that the filler (4) consists of silicon granules (6). 3. Arrangement according to claim 1 or 2, characterized in that the Partikel of the granules are spherical (7). 4. Arrangement according to claim 1, 2 or 3, characterized in that the liquid-carrying line (1) forms a part of the housing (2). 5. Arrangement according to claim 4, characterized in that the geschlos¬sene housing (2) has a frontally closed double-walled tube whose inner tube (9), the liquid-carrying line (1) and the outer tube forms the housing shell (3). An assembly according to claim 1, 2 or 3, characterized in that the housing (20) adjoins the liquid-carrying conduit (1). 7. Arrangement according to claim 6, characterized in that the housing (20) at least two shells (10, 11) is formed, which communicate with each other zwi¬schen the liquid-carrying line (1) record. 8. The use of a closed and internally hollow housing (2, 20), which is at least partially filled with a silicon-containing granules (5) having filler (4), for sheathing or forming a liquid-carrying line (1) of a building, in particular for a Heating and / or cooling circuit (12) or for a water pipe (14). 9. Use according to claim 8, that the housing (2, 20), in an existing be¬ line network (12, 14) will proceed retroactively.